Slip geometry and plastic anisotropy of body-centered cubic metals

Wolfgang Pichl

doi:10.1002/1521-396X(200201)189:1<5::AID-PSSA5>3.0.CO;2-D

Slip geometry and plastic anisotropy of body-centered cubic metals

Wolfgang Pichl

Veröffentlichungen: Beitrag in Buch › Beitrag in Konferenzband

Abstract

The plastic anisotropy of bcc metals comprises the absence of well-defined slip planes, an orientation dependence of the uniaxial flow stress which seems to be in disagreement with Schmid's law of resolved shear stress, and an asymmetry between tension and compression. Recent theoretical and experimental work has shown that these phenomena are closely correlated to elementary slip on {211} planes in an intermediate temperature range. After a discussion of crystallographic peculiarities of ?111? {211} slip, a kinematic model for microscopic cross-slip on triplets of slip planes is proposed which, in combination with the well-established model of thermally activated kink-pair formation, allows quantitative calculations of the plastic anisotropy.

Originalsprache	Englisch
Titel	7th International Conference on Ultra-High-Purity Base Metals (UHPM-2000)
Verlag	Wiley - V C H
Seiten	5-25
Seitenumfang	21
DOIs	https://doi.org/10.1002/1521-396X(200201)189:1<5::AID-PSSA5>3.0.CO;2-D
Publikationsstatus	Veröffentlicht - 2002

Publikationsreihe

Reihe	Physica Status Solidi. A: Applied Research
Nummer	1
Band	189
ISSN	0031-8965

ÖFOS 2012

1030 Physik, Astronomie

Zugriff auf Dokument

10.1002/1521-396X(200201)189:1<5::AID-PSSA5>3.0.CO;2-D

http://www3.interscience.wiley.com/journal/89016569/abstract

Zitationsweisen

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abstract = "The plastic anisotropy of bcc metals comprises the absence of well-defined slip planes, an orientation dependence of the uniaxial flow stress which seems to be in disagreement with Schmid's law of resolved shear stress, and an asymmetry between tension and compression. Recent theoretical and experimental work has shown that these phenomena are closely correlated to elementary slip on \{211\} planes in an intermediate temperature range. After a discussion of crystallographic peculiarities of ?111? \{211\} slip, a kinematic model for microscopic cross-slip on triplets of slip planes is proposed which, in combination with the well-established model of thermally activated kink-pair formation, allows quantitative calculations of the plastic anisotropy.",

author = "Wolfgang Pichl",

note = "Zeitschrift: Physica Status Solidi (A) Applied Research DOI: 10.1002/1521-396X(200201)189:1<5::AID-PSSA5>3.0.CO;2-D Coden: PSSAB Affiliations: Institut f{\"u}r Materialphysik, Universit{\"a}t Wien, Boltzmanngasse 5, A-1090 Wien, Austria Adressen: Pichl, W.; Institut f{\"u}r Materialphysik; Universit{\"a}t Wien; Boltzmanngasse 5 A-1090 Wien, Austria Import aus Scopus: 2-s2.0-0036120506",

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N1 - Zeitschrift: Physica Status Solidi (A) Applied Research DOI: 10.1002/1521-396X(200201)189:1<5::AID-PSSA5>3.0.CO;2-D Coden: PSSAB Affiliations: Institut für Materialphysik, Universität Wien, Boltzmanngasse 5, A-1090 Wien, Austria Adressen: Pichl, W.; Institut für Materialphysik; Universität Wien; Boltzmanngasse 5 A-1090 Wien, Austria Import aus Scopus: 2-s2.0-0036120506

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N2 - The plastic anisotropy of bcc metals comprises the absence of well-defined slip planes, an orientation dependence of the uniaxial flow stress which seems to be in disagreement with Schmid's law of resolved shear stress, and an asymmetry between tension and compression. Recent theoretical and experimental work has shown that these phenomena are closely correlated to elementary slip on {211} planes in an intermediate temperature range. After a discussion of crystallographic peculiarities of ?111? {211} slip, a kinematic model for microscopic cross-slip on triplets of slip planes is proposed which, in combination with the well-established model of thermally activated kink-pair formation, allows quantitative calculations of the plastic anisotropy.

AB - The plastic anisotropy of bcc metals comprises the absence of well-defined slip planes, an orientation dependence of the uniaxial flow stress which seems to be in disagreement with Schmid's law of resolved shear stress, and an asymmetry between tension and compression. Recent theoretical and experimental work has shown that these phenomena are closely correlated to elementary slip on {211} planes in an intermediate temperature range. After a discussion of crystallographic peculiarities of ?111? {211} slip, a kinematic model for microscopic cross-slip on triplets of slip planes is proposed which, in combination with the well-established model of thermally activated kink-pair formation, allows quantitative calculations of the plastic anisotropy.

U2 - 10.1002/1521-396X(200201)189:1<5::AID-PSSA5>3.0.CO;2-D

DO - 10.1002/1521-396X(200201)189:1<5::AID-PSSA5>3.0.CO;2-D

M3 - Contribution to proceedings

T3 - Physica Status Solidi. A: Applied Research

SP - 5

EP - 25

BT - 7th International Conference on Ultra-High-Purity Base Metals (UHPM-2000)

PB - Wiley - V C H

ER -

Slip geometry and plastic anisotropy of body-centered cubic metals

Abstract

Publikationsreihe

ÖFOS 2012

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